Incinerator should be smokeless, odourless combustion and it should be made by high-quality cast, insulation, and steel plate as well as minimum generation of dust. Moreover the incinerator should be corrosion resistant. Type of incinerator : Pyrolitic – hot medical waste disposing machine Operation Condition: 8-16 hr/ day Control: Built-in data recording Operating temperature: Incinerator /Primary Combustion Chamber Primary Chamber: 900 – 1200 0C Type: continuous loading, Top Loading Capacity/Burn rate per hour: 250 -300 kg/hr Material: External- 3 layers Internal lining: a fire proof material of pre-fired refractory bricks with Aluminium lining, resistant to corrosive waste or gas and to thermal shock Secondary Combustion Chamber: Type: horizontal/vertical Temperature: 1200- 1300 oC Residence time of gases : >2 seconds Ash Residue: <5% of original waste size Ash Handling System: Both Automatic and manual removal of Ash. Must ensure removal/treatment of hazardous remnants of ash Flue gas treatment system : Capable of treating the flow of flue gas as the incinerator is operating at its maximum capacity Auxiliary device: Water level gauge, pressure sensor, PH sensor..etc Auxiliary device: Fuel cut-off device Waste feeding mechanism: Automatic pneumatic/hydraulic waste loading system or conveyor belt , capacity 650-800 L at a time Chimney (Stack): Type: Vertical type height:>7 meter’ Material: Fireproof cast, stainless steel OUTPUT: GAS- SMOKELESS,ODORLESS ASH -Max <5% of original waste size Reduction of Pollutant gas SO2, HCL, HF and line particulate Emission standard: WHO/ European Test report for emission testing provided? Heat exchange mode: Automatic Accessories: All standard accessories for incinerator, including but not limited to loading system, heat exchangers, pollution control system, ash removal system, including ladder and oil tanker (2500litre capacity). Operating Environment: The incinerator is capable to operate at the altitude of 2400mt above sea level. (according to the site conditions) Power Requirement: 220 Vac single phase or 380 Vac three phase 4 wire system 50HZ Installation Testing and Commissioning : to be conducted by certified or qualified personnel. Supplier shall provide the following documentation User (Operating) manual in English. Service (Technical / Maintenance) manual in English. Certificate of calibration and inspection from factory. Fast moving spare parts: Supplier is able to provide fast moving spare parts with quantities as described in the price schedule or their equivalent. Training: Supplier is able to provide training on operation, management and maintenance of incinerators. Warranty Comprehensive warranty for minimum 2 year. Maintenance Service during Warranty Period During warranty period supplier must ensure, corrective/breakdown maintenance whenever required. Supplier has a local agent or branch office in Ethiopia (please indicate the name and contact details of the agent) Supplier provides labor, lifting equipment and tools needed for the installation, testing and commissioning of the incinerator. The supplier will be responsible for the safety of its staff, workers and laborers during the installation, testing & commisssioning […]
Destroy the wasted materials or chemical uses in pharmaceuticals through Primary & Secondary combustion Chamber’s with working temperatures are 850° C & 1100° C or 1200° C & 1400° C. The incinerator design must meet with ISO, OSHAS, Emission Standards, Norms and Guidelines. The incinerator design must have heat recovery system and low fuel consumption system while incineration. The machine should have following features in its respective parts – Feeding system Automatic/ and manual control system Automatic heating control system Easy maintenance Outdoor type IP grade material Heat recovery system Low fuel consumption system Combustion chamber dual type with heat recovery system Burner system with economizer / low fuel method Scrubbing system as per regulation Easy dust collecting system Chimney (height 50 meter) Record printing system Incinerators to be suitable for the professional disposal of clinical & medical waste / garbage with a higher load capacity in the range of approximately 1000-1500 Kg. The durable, self-contained incinerators shall offer an effective and highly efficient, safe disposal and to be manufactured according to applicable international directives, e.g. CE, EU, etc. Type of Fuel: Diesel or Petrol or Natural Gas. Temperature controlled, efficient burner for optimum fuel economy. Units to be pre-assembled, pre-piped, pre-wired and tested before transport / export. Within the framework of an environmental and medical equipment & technology consultation and joint purchasing, this Procurement Bureau invites applicants for pre-qualification in the aim of primarily selecting capable companies to bid for the above tender.
Mobile Diesel Fired Incinerator in container, supplied with the following specifications: complete with constant ventilation fans for extraction, factory installed inside one 20ft ISO container complete with lighting, ventilation fan, fire security, 3 access doors, and a 1200 litre fuel tank complete with a piping. Fully containerised mobile waste management solution for medical, animal, and industrial waste applications. Installed in Container (ISO) : 20” or its nearest equivalent model “ Tender Technical Specification Destruction rate of 50kg/hr Hot Hearth Principle Refractory insulation: a. Silicon carbide floor b. Minimum 22mm insulation thickness c. Brick lined Refractory insulation d. Three layers of refractory insulation e. Temperature Rating 1650 deg.C f. 42% alumina fire bricks Primary Chamber: a. 120Kw Burner b. Dedicated independent fan system, damper controlled. c. Thermostatic Sensor d. Dimensions – 700mm x 700mm x g00mm e. Square Chamber with curved floor for liquid centralization Hot Hearth Chamber: a. 120Kw Burner b. Thermostatic Sensor c. Minimum Temperature of 1100 deg.C as per WHO guidelines. d. Two second retention time – Proven with CFD modeling. Steel Construction: a. constructed from 8mm & 1Omm steer plate b. Painted two pack paint system, red with black flashing Control Panels: a. Door dimensions 700mm x 700mm b. Front mounted ash collection box. Control Panels: a. AiController b. Plug and play c. Threezone monitoring of: i)Primary chamber ii) Secondary chamber iii) Hot hearth d. Digital display e. Burner on-off indication lights f. Timer Chimney: a. Mild steel painted red b. Refractory insulated with 50mm of insulation. Unit Dimensions: 1840mm x 1 ‘1 50mm x 1950mm high. Safety: a. Burner door cut-off switches b. Fire valve fitted to fuel system c. Maximum noise at 1m x g0 decibels d. Exterior temperature 70 deg.C Max
1) Policy – Waste disposal management shall be taken special note to prevent hospital infection. – Infections wastes shall be managed, stored strictly and burned by a incinerator located at hospital site. 2) Waste Disposal Plan a) Classification – Medical wastes in hospital are classified as follows; Infections Waste Specially-controlled waste Organ, needle, etc. Industrial waste […]
Burn Rate * 60 Kg / hr Ingredients to be burned Cotton, Rubber, PVC Sheets, PE Gloves, Oil, Plastic Bottles, Paper etc. Chambers * Dual Chamber. 1: Primary Controlled Air 2: Secondary Excess Air Temperature Monitoring Required Temperature Control to Primary & Secondary Chambers Required System Status & Alarms Required for all necessary parameters. Fittings & Accessories Complete Package is required ( Including Nozzles & Flanges etc.) Installation Requirements. As low as possible . Almost Plug & Play type. Dimensional Sketch, Operation & Installation Manuals. Required Off – Gas System Required Heat Insulation Required for indoor installation Delivery Karachi Sea Port – Pakistan The details of Components of incinerator is as follows: Component Name Features Range. Primary Chamber Temperature Required* 800 – 1000 deg C. Heating Source Natural Gas Secondary Chamber Temperature * 1100 – 1300 deg. C Heating Source Natural Gas + Propane or Fuel Oil as an additional source Off – Gas Residence Time 2 Seconds. Refractory Material Material * Alumina ( 56 – 80 % Pure ) Lining * SS 316L Life Span * 10 – 15 years. Rating Temperature 1600 – 1800 deg. C Media Slightly acidic Insulation Material […]
Suitable models for required waste disposal range. Combustion efficiently per hour based on 08hrs operation and its fuel category installation method C Mobile type/ possibility of structured inside container / structured in permanent base Fuel consumption details consisting electricity Capacity: 20KG/Hr, Temp Range: 600 Deg. C C 1100 Deg. C Fuel Supply: Natural Gas/Diesel Dual Combustion Chamber Complete Scrubbing System (Dual Resultant Gas Washer), Dual Blower, Chimney Height: 8m Electric Supply: 220/240Volt, Single Phase Waste treatment capacity: 35 kg / h The combustion chamber is thick steel plate (3 to 10 mm ) with reinforcements, specially built . Front loading with watertight door mounted on hinges, locking screw wheel , flexible gasket and an insulating refractory lined . An internal lining of refractory concrete containing 42% of H2 03 (alumina ) and 100 mm thick walls. fibrous insulation panels made ??of calcium silicate with a thickness of 75mm . Automatic Burner ( diesel or gas must be specified in the order ) with flames diving in one piece monoblock with an electronic ignition system , permanent ventilation control valve and isolation valve. combustion floor made ??in carborundum , preventing binding of glass and slag. Equipped with two (02) chambers Fuel: Gas or butane gas Power supply: 220 V 50 Hz single-phase Capacity 100 Kg (0.18 m3) Electric starter ・ The room dimensions are 6.64 m width x 6.61 m length x 6.03 m height at lowest point/per one incinerator. Are these dimensions sufficient for complete one medical incinerator 150 kg/hours (1.5ton/day). ・ Please, provide complete data about chemical consumption required for waste incineration, gas emission treatment ,liquid waste and generated soiled wastes handling and/or, treatment . ・ Please, confirm that the exhaust gases are treated by alkaline scrubbing (wet or dry).
Solid waste incinerator, productivity 100kg/h placed in a container. Dimensions: 2,45×12,2m and 2,9m in height. Operates natural gas with the pressure of 0.005 MPa and consumption of 0,21-0,23 m3 per kg of waste. Installed power C 55 kW. Total 3 units. Fuel capacity:200l or more Incinerator has a temperature monitoring system in place Wet scrubber capable of removing sulpur dioxide in the fumes Water capacity of 2000l or more Incinerator temeprature above 950 degree celsius Incinerator used a dual chamber system for incinerator Capacity per hour at least 25kg 1. A combustion chamber : a. watertight door for manual loading of waste. b . A burner start is limited to inflammation of waste . 2. A camera post-combustion gases : a. burner combustion , low power . b . An injection device air for total recombustion of the gases . c . An input device cooling air of the combustion gases. d . A smoke evacuation duct . 3. A control panel ensuring complete combustion cycle . The incinerator meets as indicated on waste incineration . They will not burn plastics, packaging except that the amount so small that gases need not receive any treatment, secondary combustion chamber to 1100C handles everything .. Water waste incinerator, productivity up to 3m3/h and placed in a modular building. Dimensions: 8,2×5,9m and 5m in height. Operates natural gas with the pressure of 0,016 MPa and consumption of 0,35m3 / kg of drainage. Installed power C 35 kW. Total 1 unit.
Type Pyrolytic:- Hot Medical Waste Disposing Machine Operation Condition 8-16 Hr /day Controls Built in data recording Incinerator /Primary Combustion Chamber Type: continuous loading Capacity/Burn rate per hour: 250 -300kg/hr Temperature: 900-1200 oC Material: External- 3 layers Internal lining: a fire proof material of pre-fired refractory bricks with Aluminium lining, resistant to corrosive waste or gas and to thermal shock Secondary Combustion Chamber Type: horizontal/vertical Temperature: 1200-1400 oC Residence time of gases : >2 seconds Material External- Low thermal mass insulation 14-30 oC Internal lining: a fire proof material of pre-fired refractory bricks with Aluminium nettle lining, resistant to corrosive waste or gas and to thermal shock. Ash Handling System Both Automatic and manual removal of Ash. Must ensure removal/treatment of hazardous remnants of ash. Flue gas treatment system Capable of treating the flow of flue gas as the incinerator is operating at its maximum capacity Auxiliary device: Water level gauge, pressure sensor, PH sensor..etc. Auxiliary device: Fuel cut off device Waste feeding mechanism Automatic pneumatic/hydraulic waste loading system or conveyor belt , capacity 650-800L at a time Chimney (Stack) Type: Vertical type height: 7-10 meters Material: Fireproof cast, stainless steel Wet scrubbing system Vertical sprat tower with baffles or packing inside Gas emission Reduction of Pollutant gas SO2, HCL, HF and line particulate OUTPUT ASH -Max <5% of original waste size GAS- SMOKELESS,ODORLESS Emission standard WHO/ European Test report for emission testing Must be provided Product Data sheet/ Catalogue Must be attached to the ITB Additional Requirement -Local agent or branch in Ethiopia -Training for users as well as for EPHI maintenance staff on preventive maintenance […]
○ Containerized Mobile Incinerator(CA Model) HICLOVER now offer a full range of containerized incineration systems, placing us at the forefront of the latest transportation and industrial trends. Containerization enables immediate waste management as the units are pre-assembled and pre-installed. Containerization is the most feasible and viable option in contrast to the construction of on-site facilities […]
○ Containerized Mobile Incinerator(CA Model) HICLOVER now offer a full range of containerized incineration systems, placing us at the forefront of the latest transportation and industrial trends. Containerization enables immediate waste management as the units are pre-assembled and pre-installed. Containerization is the most feasible and viable option in contrast to the construction of on-site facilities […]